Difference between revisions of "Qweak R1 GEM DNP2009"
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| + | Thank you! Your abstract has been submitted to 3rd Joint Meeting of the APS Division of Nuclear Physics and the Physical Society of Japan. | ||
| + | |||
| + | The log number for your submission is HAW09-2009-000429. | ||
| + | |||
| + | ;Title | ||
| + | :The GEM Tracking Subsystem for Qweak | ||
| + | |||
A tracking subsystem for the Qweak experiment at Jefferson Lab has been constructed using gas electron multipliers (GEMs) to enable the detection of elastically scattered electrons at high rates. Unlike other similar tracking devices, the GEM based tracking system uses a polar coordinate system and custom designed digitization cards for readout. The coordinate system was chosen to simplify a measurement of the elastically scattered electron's squared momentum transfer. The readout electronics, designed at CERN, may be used by either silicon or GEM based detectors. The compact readout system has a high radiation tolerance and contains 128 readout channels per card. Each channel is sampled up to 40 MHz and is buffered to facilitate readout latencies up to 128 clock cycles. A description of the tracking system and the performance of the readout system will be presented. | A tracking subsystem for the Qweak experiment at Jefferson Lab has been constructed using gas electron multipliers (GEMs) to enable the detection of elastically scattered electrons at high rates. Unlike other similar tracking devices, the GEM based tracking system uses a polar coordinate system and custom designed digitization cards for readout. The coordinate system was chosen to simplify a measurement of the elastically scattered electron's squared momentum transfer. The readout electronics, designed at CERN, may be used by either silicon or GEM based detectors. The compact readout system has a high radiation tolerance and contains 128 readout channels per card. Each channel is sampled up to 40 MHz and is buffered to facilitate readout latencies up to 128 clock cycles. A description of the tracking system and the performance of the readout system will be presented. | ||
| + | |||
| + | |||
| + | Tex file: | ||
| + | |||
| + | \documentstyle[11pt,apsab]{article} | ||
| + | \nofiles | ||
| + | \MeetingID{HAW09} | ||
| + | %\DateSubmitted{20090630} | ||
| + | \LogNumber{HAW09-2009-000429} | ||
| + | \SubmittingMemberSurname{Forest} | ||
| + | \SubmittingMemberGivenName{Tony} | ||
| + | %\SubmittingMemberID{USA} | ||
| + | \SubmittingMemberEmail{tforest@physics.isu.edu} | ||
| + | \SubmittingMemberAffil{Idaho | ||
| + | State | ||
| + | university} | ||
| + | \PresentationType{oral} | ||
| + | \SortCategory{12.}{}{}{} | ||
| + | \SpecialInstructions{membership | ||
| + | pending} | ||
| + | \received{30 Jun 2009} | ||
| + | \begin{document} | ||
| + | \Title{The GEM Tracking | ||
| + | Subsystem for Qweak} | ||
| + | \titlenote{Work supported by the National Science | ||
| + | Foundation} | ||
| + | \AuthorSurname{Didberidze} | ||
| + | \AuthorGivenName{Tamuna} | ||
| + | %\AuthorEmail{didbtama@isu.edu} | ||
| + | \AuthorSurname{Forest} | ||
| + | \AuthorGivenName{Tony} | ||
| + | %\AuthorEmail{tforest@physics.isu.edu} | ||
| + | \AuthorAffil{Idaho | ||
| + | State | ||
| + | University} | ||
| + | \AuthorSurname{Collaboration} | ||
| + | \AuthorGivenName{Qweak} | ||
| + | \CategoryType{E} | ||
| + | \begin{abstract} | ||
| + | A | ||
| + | tracking subsystem for the Qweak experiment at Jefferson Lab | ||
| + | has been constructed using gas electron multipliers (GEMs) to | ||
| + | enable the detection of elastically scattered electrons at high | ||
| + | rates. Unlike other similar tracking devices, the GEM based | ||
| + | tracking system uses a polar coordinate system and custom | ||
| + | designed digitization cards for readout. The coordinate system | ||
| + | was chosen to simplify a measurement of the elastically scattered | ||
| + | electron's squared momentum transfer. The readout electronics, | ||
| + | designed at CERN, may be used by either silicon or GEM based | ||
| + | detectors. The compact readout system has a high radiation | ||
| + | tolerance and contains 128 readout channels per card. Each | ||
| + | channel is sampled up to 40 MHz and is buffered to facilitate | ||
| + | readout latencies up to 128 clock cycles. A description of the | ||
| + | tracking system and the performance of the readout system will be | ||
| + | presented. | ||
| + | \end{abstract} | ||
| + | \end{document} | ||
Revision as of 20:37, 30 June 2009
Thank you! Your abstract has been submitted to 3rd Joint Meeting of the APS Division of Nuclear Physics and the Physical Society of Japan.
The log number for your submission is HAW09-2009-000429.
- Title
- The GEM Tracking Subsystem for Qweak
A tracking subsystem for the Qweak experiment at Jefferson Lab has been constructed using gas electron multipliers (GEMs) to enable the detection of elastically scattered electrons at high rates. Unlike other similar tracking devices, the GEM based tracking system uses a polar coordinate system and custom designed digitization cards for readout. The coordinate system was chosen to simplify a measurement of the elastically scattered electron's squared momentum transfer. The readout electronics, designed at CERN, may be used by either silicon or GEM based detectors. The compact readout system has a high radiation tolerance and contains 128 readout channels per card. Each channel is sampled up to 40 MHz and is buffered to facilitate readout latencies up to 128 clock cycles. A description of the tracking system and the performance of the readout system will be presented.
Tex file:
\documentstyle[11pt,apsab]{article} \nofiles \MeetingID{HAW09} %\DateSubmitted{20090630} \LogNumber{HAW09-2009-000429} \SubmittingMemberSurname{Forest} \SubmittingMemberGivenName{Tony} %\SubmittingMemberID{USA} \SubmittingMemberEmail{tforest@physics.isu.edu} \SubmittingMemberAffil{Idaho State university} \PresentationType{oral} \SortCategory{12.}{}{}{} \SpecialInstructions{membership pending} \received{30 Jun 2009} \begin{document} \Title{The GEM Tracking Subsystem for Qweak} \titlenote{Work supported by the National Science Foundation} \AuthorSurname{Didberidze} \AuthorGivenName{Tamuna} %\AuthorEmail{didbtama@isu.edu} \AuthorSurname{Forest} \AuthorGivenName{Tony} %\AuthorEmail{tforest@physics.isu.edu} \AuthorAffil{Idaho State University} \AuthorSurname{Collaboration} \AuthorGivenName{Qweak} \CategoryType{E} \begin{abstract} A tracking subsystem for the Qweak experiment at Jefferson Lab has been constructed using gas electron multipliers (GEMs) to enable the detection of elastically scattered electrons at high rates. Unlike other similar tracking devices, the GEM based tracking system uses a polar coordinate system and custom designed digitization cards for readout. The coordinate system was chosen to simplify a measurement of the elastically scattered electron's squared momentum transfer. The readout electronics, designed at CERN, may be used by either silicon or GEM based detectors. The compact readout system has a high radiation tolerance and contains 128 readout channels per card. Each channel is sampled up to 40 MHz and is buffered to facilitate readout latencies up to 128 clock cycles. A description of the tracking system and the performance of the readout system will be presented. \end{abstract} \end{document}